Electrochemical impedance spectroscopy of polynucleotide adsorption.

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Authors

STRAŠÁK Luděk DVOŘÁK Jakub HASOŇ Stanislav VETTERL Vladimír

Year of publication 2002
Type Article in Periodical
Magazine / Source Bioelectrochemistry
MU Faculty or unit

Faculty of Science

Citation
Field Biophysics
Keywords electrochemical impedance spectroscopy; EIS; DNA adsorption; polyadenylic acid adsorption; poly A adsorption; differential capacitance
Description The dependence of the impedance of the electrode double layer of mercury electrode on frequency around the potentials of the tensammetric peaks of single-stranded and double-helical polynucleotides and DNA was studied. from the frequency dependence of the impedance of the electrode double layer represented in a complex plane impedance plot (Nyquist plot, Cole-Cole plot), the electric equivalent circuit of the electrode covered with adsorbed DNA layer was determined. It was concluded that the desorption of ssDNA (single stranded, denatured) is accompanied by higher dielectric losses than the desorption of dsDNA (double stranded, native). This can be explained by the higher flexibilioty of ssDNA compared to the dsDNA. The capacitance peak of single stranded polyadenylic acid observed at pH 8 around -1.3 V splits at lopw frequencies in two peaks.
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